KR101978503B1 - Method for repairing error display in distribution line - Google Patents

Abstract

The present invention relates to a remote repair method for a distribution line breakdown displaying apparatus remotely repairing a distribution line breakdown displaying apparatus installed on a power distribution line, which comprises: a wireless communication link establishment process establishing a breakdown displaying apparatus to be repaired and a wireless communication link between a worker terminal and a distribution line breakdown displaying apparatus; upgrade data transmission process allowing the worker terminal to wirelessly transfer upgrade data to the breakdown displaying apparatus to be repaired when the wireless communication link is established; an upgrade process upgrading the breakdown displaying apparatus to be repaired as upgrade data wirelessly received from the worker terminal; and a wireless communication link end process allowing the breakdown displaying apparatus to be repaired to end the wireless communication link connected to the worker terminal when the upgrade is finished. The end of the present invention is to provide means for a worker to easily upgrade a distribution line breakdown displaying apparatus by using a worker terminal such as a smartphone.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for remotely repairing a fault display device by a distribution line,

The present invention relates to a method for remotely repairing a fault display device by a distribution line, and more particularly, to a remote repair method of a fault display device by a distribution line for remotely repairing a fault display device by a distribution line that displays a fault by a distribution line.

There is a wire line and an underground wire in the distribution line. In general, it is common that electric power is supplied to a home, a shop, a small factory, etc. by a working line.

The underground power distribution line is a method of inserting a power cable underground and distributing it as an insulated conductor. However, it has a merit that it is better in appearance and less trouble than a processing power distribution line, but it has a disadvantage that construction cost and equipment are expensive, .

Domestic power distribution lines use almost the line method from the economic point of view, but there are frequent failures due to power distribution lines. Therefore, there is a problem that the state of the lines must be visually checked along the roads and alleys to find broken power distribution lines.

In particular, when a fault occurs due to an obstacle such as a roadside or a building or a fault caused by minute scratches on a power line, it is difficult to detect a fault section of the power line, and the detection time is also long.

In addition, when the fault section of the distribution line is complicatedly constituted by a plurality of branch points or the like, it is impossible to visually identify the fault section or the detection time is long, thereby increasing the wide-range power interruption time.

Korean Patent Registration No. 10-1482669 (a distribution line failure display device) has been disclosed as a prior art that partially improves such a problem.

However, such a conventional distribution line fault display device is located on the working line, so that it is difficult for a worker to easily approach. Therefore, when it is necessary to change the color or roughness of the lamp of the fault display device by the distribution line according to the power transmission environment to the processing distribution line, it is necessary to update the lamp operation DB by accessing the fault display device by the distribution line, It is a reality that repair work is difficult.

Therefore, it is necessary to provide a means for remotely repairing the fault display device by a distribution line in case the access to the fault display device by the power distribution line is difficult.

Korean Patent No. 10-1482669

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a means for allowing an operator to easily update a fault display device with a distribution line by using an operator terminal such as a smart phone.

An embodiment of the present invention is a remote repair method of a fault display device for a distribution line by remotely repairing a fault display device with a distribution line installed on a processing distribution line, the method comprising the steps of: A wireless communication link establishing step of establishing a wireless communication link with a repair target failure display device which is a failure display device; An upgrade data transmission step of wirelessly transmitting upgrade data to the repair target display device when the wireless communication link is established; An upgrade process of upgrading the repair target failure display device as upgrade data wirelessly received from the worker terminal; And a wireless communication link termination step of terminating the wireless communication link with the operator terminal when the upgrading is completed.

The process of establishing the wireless communication line includes the steps of broadcasting a wake-up signal having a repair target ID, which is a unique ID of the fault display device, to the worker terminal through a power line to be repaired; And a step of starting communication with the worker terminal by transmitting an ACK signal when the failure display device receives the wakeup signal with the power distribution line having the repair object ID.

The upgraded data transmission process may be configured such that upgraded data matched according to state information to the fabrication distribution line is transmitted.

The upgrade data transmission process may include: a line state information transmission process of transmitting the state information of the processing distribution line to the worker terminal; And a matching data transmitting step of wirelessly transmitting the upgrade data matching the state information of the processing distribution line to the repair target display device by the operator terminal.

The upgrade data may be a value of the lamp emission color and the lamp roughness of the failure display device by a distribution line determined according to the failure state of the processing distribution line.

The upgrade data may be a threshold voltage value of a processing distribution line serving as a reference for reporting a failure to a distribution center.

After the wireless communication link is established between the operator terminal and the target failure display device, the handshaking periodically is performed, and when the handshaking fails, the side that detected the failure may attempt to reset the link.

According to the embodiment of the present invention, an operator can easily update and repair a fault display device with a distribution line by using a worker terminal such as his smart phone.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram for explaining a connection relationship of a fault display device with a distribution line according to an embodiment of the present invention; FIG.
2 is a block diagram of a configuration of a power line fault display apparatus according to an embodiment of the present invention;
3 is a view for explaining a remote repair of a fault display device to a distribution line of a distribution line fault display device according to an embodiment of the present invention;
FIG. 4 is a flowchart illustrating a remote repair method of a fault display apparatus for a distribution line according to an embodiment of the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

2 is a block diagram of a power line fault display apparatus according to an embodiment of the present invention. FIG. 3 is a block diagram of a power line fault display apparatus according to an embodiment of the present invention. FIG. 3 is a diagram for explaining a remote repair of a fault display device by a distribution line of a fault display device according to an embodiment of the present invention. FIG.

The distribution line fault display device 100 is installed on a processing distribution line and includes a control unit 130, a sensing unit 110 for sensing at least one of current, voltage and temperature on the distribution line and outputting sensing data, A lamp unit 140 which is turned on under the control of the control unit 130 when it is determined that a failure has occurred on the power distribution line, A second communication unit 160 for receiving the wide area fault information from the power distribution center 200 to the power distribution line, A tension sensor 180 for detecting the tension of the distribution line and outputting tension data and a tension sensor 180 for detecting the tension of the distribution line to detect the tilt of the lamp unit 140, car It may be configured to include a light blocking unit 190 for.

First, the sensing unit 110 may include at least one of a current sensing sensor, a voltage sensing sensor, and a temperature sensing sensor.

The sensing unit 110 may sense at least one of current, voltage, and temperature on the power distribution line to output sensed data.

The operation of the sensing unit 110 may be determined by the control unit 130.

The failure determination unit 120 may compare the data of the current, voltage, and temperature included in the sensed data with predetermined data to determine whether or not the failure occurs on the power line. The failure determination unit 120 can determine that a failure has occurred on the power distribution line when, for example, the numerical value of the sensed data exceeds any one of data set for the current, voltage, and temperature.

If the preset data is set in stepwise manner, the failure determining unit 120 may compare each data value set in stages with the sensed data to determine whether it is a step-by-step failure. For example, when the default data of the current data is set to 1A, 2A, 3A, the failure determining unit 120 issues a warning if the current value of the sensed data exceeds 1A, and if the current value exceeds 2A As a cautionary step, if it exceeds 3A, it can be judged as a dangerous stage.

The step-by-step fault judgment can be made by combining values of current, voltage and temperature data according to the setting. The malfunction determining unit 120 may be operated under the control of the controller 130.

The lamp unit 140 is turned on according to the control of the controller 130 when it is determined that a failure occurs on the power distribution line. The lamp unit 140 may be composed of, for example, an LED. The operation and color and illuminance of the lamp unit 140 may be determined according to the control of the controller 130.

The first communication unit 150 receives upgrade data from a worker terminal used by the worker 400 shown in FIG. The first communication unit 150 can receive upgrade data from the worker terminal using various wireless communications such as RF, Bluetooth, and ultrasonic communication systems. Here, the worker terminal may be a smart phone, a tablet, a notebook terminal capable of wireless communication, etc., which are used by a KEPCO employee who is an operator.

The second communication unit 160 can receive the wide-area fault information from the distribution center 200 to the distribution line. The second communication unit 160 can receive the wide-area fault information from the distribution center 200 to the power distribution line using, for example, CDMA, WiBro communication method, or the like.

The control unit 130 controls operations of the sensing unit 110, the failure determining unit 120, the lamp unit 140 and the first communication unit 150 and controls at least one of the color and the illuminance of the lamp unit 140 can do. The control unit 130 may control the operation of the lamp unit 140 and the first communication unit 150 using the wide-area fault information of the power line received by the second communication unit 160. [

(FRTU, Feeder Remote Terminal Unit) installed in a transformer, an electric switch, and the like transmits various status information, such as distribution device failure information and failure direction, to the distribution center 200. The distribution center 200 From this a wide range of fault areas can be identified. The distribution center 200 transmits the wide-area fault information to the second communication unit 160 through the distribution line including information on the fault occurrence area.

The control unit 130 determines whether an area where the fault display device 100 is installed is included in the failure occurrence area by the corresponding power distribution line and controls the lamp unit 140 and the first communication unit 150 to operate only when the region is included . Accordingly, the power failure display device 100 controls the lamp unit 140 and the first communication unit 150 to operate only when it is determined that a failure has occurred through the power distribution automation terminal device 300, It is possible to reduce the consumption and improve the accuracy of the determination of the failure.

The control unit 130 may control the lamp unit 140 to operate when the failure determination unit 120 determines that a failure has occurred.

The controller 130 may control at least one of a color and an illuminance of the lamp unit when the failure determining unit 120 determines that the failure has occurred. For example, if the step-by-step failure is classified into a warning, a caution, and a dangerous level, the control unit 130 may control the illuminance in the order of warning, attention, and risk. Alternatively, the control unit 130 may control to change from a yellow-based color to a red-based color in the order of warning, attention, and danger. Alternatively, the control unit 130 may control the illuminance to be higher in the order of warning, attention, and danger, and control the color to change from the yellow-based color to the red-based color.

The tilt sensor 170 can sense the tilt of the distribution line and output the tilt data. The tilt sensor 170 may detect tilting of the distribution line due to tilting of the electric pole, for example, and may output tilting data. The tilting sensor 170 may compare the tilt data with a predetermined data value It is possible to judge whether or not the distribution line is faulty.

The tension sensor 180 can sense the tension of the distribution line and output the tension data. The tension sensor 180 may detect tension variation in the distribution line due to, for example, icing, wind pressure, etc., and output the tension data. The failure determination unit 120 may output the tension data to a predetermined data value It is possible to judge whether the distribution line is broken or not.

On the other hand, the distribution line fault display device is located on the working line, making it difficult for the operator to easily access. Therefore, when it is necessary to change the color or roughness of the lamp of the fault display device by the distribution line according to the power transmission environment to the processing distribution line, the lamp operation DB should be updated by approaching the fault display device by the distribution line, As a result, the worker (400) is difficult to access easily, and the update operation is difficult.

In order to solve such a problem, the present invention provides means for allowing the worker 400 to easily update the fault display device with a distribution line by using a worker terminal such as his own smart phone.

Therefore, it is necessary to provide a means for remotely repairing the fault display device by a distribution line in case the access to the fault display device by the power distribution line is difficult. This will be described in detail with reference to FIG.

4 is a flowchart illustrating a method for remotely repairing a fault display apparatus by a distribution line according to an embodiment of the present invention.

As shown in FIG. 4, in the method of remotely repairing a fault display device according to the present invention for remotely repairing a fault display device by a distribution line installed on a fabrication distribution line, the wireless communication link establishment process (S410) (S420), an upgrade process (S430), and a wireless communication link termination process (S440).

The wireless communication link establishment process (S410) is a process in which a worker terminal establishes a wireless communication link with a repair target failure display device that is a failure display device with a distribution line requiring repair. For example, when the first, second, third, fourth, fifth, and sixth failure display devices are located on the processing power distribution line and the first failure display device is to be upgraded, Thereby establishing a wireless communication link. For reference, the wireless communication link of the failure display device is processed by the first communication unit 150 provided in the failure display device.

To this end, the process of establishing a wireless communication line includes a step S411 of broadcasting a wake-up signal having a repair object ID, which is a unique ID of the fault display device, to the worker terminal by a distribution line to be repaired, When the display device receives the wake-up signal, it can transmit an ACK signal to start communication with the worker terminal (S412).

All the distribution lines fault display devices detect whether a wake up signal is periodically received and judge whether the repair target ID recorded in the wake up signal matches its own unique ID when a wake up signal is received. When the repair object ID matches the unique ID of the repair object, the fault display device can recognize that the repair object ID is a repair target fault display device, and transmits an ACK signal to start communication with the worker terminal. For reference, the ACK (acknowledge) signal is a signal for transmission control sent from the receiving side in an affirmative response to the transmitting side, and is a signal that is correctly connected and indicates that the data has been received without error. In the present invention, the ID of the fault display device is recorded in the ACK signal to the repair target distribution line, and the ID is transmitted to the worker terminal.

Further, after a wireless communication link is established between the operator terminal and the target failure display device, handshaking may be performed periodically, and if the handshaking fails, the side that detected the failure may attempt to perform link resetting. Therefore, even if the wireless communication link is disconnected between the operator terminal and the fault display device to be repaired, the link resetting is automatically performed to stabilize the communication.

The upgrade data transmission process (S420) is a process in which, when the wireless communication link is established, the worker terminal wirelessly transmits the upgrade data to the repair target failure display device.

Such upgrade data may correspond to various data as data for upgrading the repair target failure display device. For example, the upgrade data may be a value of the lamp emission color, lamp roughness of the failure display device by the distribution line determined according to the failure state to the processing distribution line. Therefore, in the case of the first failure state, the lamp was emitted in the first color and the second illumination. However, due to the change of the facility, the second color and the second illumination To the values of the second color and the second illuminance.

Also, the upgrade data may be a threshold voltage value to the processing power distribution line as a criterion for reporting a failure to the distribution center. It was designed to report a fault to the distribution center if the fault display device was installed in the A processing power distribution line that had flowed 220V before, and if it drops below 210V, only when the processing power distribution line falls below 200V due to the design change of the line, If you change the design to report a failure, you can upgrade it to reflect this.

Furthermore, the upgrade data transmission process (S420) can be implemented so that the upgrade data matched according to the status information to the processing distribution line is transmitted.

To this end, the upgrade data transmission step (S420) includes a line state information transmission step (S421) of transmitting the state information of the processing distribution line to the worker terminal (S421) and the state information of the work distribution line (S422) for wirelessly transferring the upgrade data matched to the failure target display device to the repair target display device.

The upgrade process (S430) is a process for upgrading the repair target failure display device as upgrade data wirelessly received from the worker terminal.

The wireless communication link termination process (S440) is a process of terminating the wireless communication link with the operator terminal when the upgrade is completed.

The embodiments of the present invention described above are selected and presented in order to facilitate the understanding of those skilled in the art from a variety of possible examples. The technical idea of the present invention is not necessarily limited to or limited to these embodiments Various changes, modifications, and other equivalent embodiments are possible without departing from the spirit of the present invention.

S410: Wireless communication link establishment process
S420: Upgrade data transmission process
S430: Upgrade Process
S440: Wireless communication link termination process

Claims (7)

A method of remotely repairing a fault display device by a distribution line installed on a processing distribution line, comprising the steps of:
A wireless communication link establishing step of establishing a wireless communication link between a worker terminal and a distribution line fault display device, and a repair target display device that is a failure display device with a distribution line requiring repair;
When the wireless communication link is established, the worker terminal implements the process of wirelessly transmitting the upgrade data to the repair target display device so that the upgrade data matched according to the status information to the processing distribution line is transmitted. A line state information transmission process of transmitting state information of the processing distribution line to the worker terminal; And a matching data transmitting step in which the operator terminal wirelessly transmits upgrade data matched with state information of the processing distribution line to the repair target failure display device;
An upgrade process of upgrading the repair target failure display device as upgrade data wirelessly received from the worker terminal; And
A wireless communication link termination step of terminating the wireless communication link with the operator terminal when the upgrade is completed;
The method comprising the steps of:
The method as claimed in claim 1,
The worker terminal broadcasts a wake-up signal having a repair object ID that is a unique ID of the fault display device with the distribution line to be repaired; And
Receiving a wake-up signal from a power distribution line having a repair object ID, and transmitting an ACK signal to start communication with a worker terminal;
The method comprising the steps of:
delete delete 2. The method of claim 1,
And the lamp lighting color of the fault display device and the value of the lamp illuminance determined by the fault condition of the processing distribution line.
2. The method of claim 1,
And a threshold voltage value of the processing power distribution line as a criterion for reporting a failure to the power distribution center.
The method according to claim 1,
And performing a handshaking periodically after establishing a wireless communication link between the operator terminal and the repair target display device, and attempting a link reset at a side where the handshaking is detected when the handshaking is unsuccessful.

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